BACKGROUND: Sleep and circadian timing shifts later during adolescence, conflicting with early school start times, and resulting in circadian misalignment. Although circadian misalignment has been linked to depression, substance use, and altered reward function, a paucity of experimental studies precludes the determination of causality. Here we tested, for the first time, whether experimentally-imposed circadian misalignment alters the neural response to monetary reward and/or response inhibition. METHODS: Healthy adolescents (n = 25, ages 13-17) completed two in-lab sleep schedules in counterbalanced order: An 'aligned' condition based on typical summer sleep-wake times (0000-0930) and a 'misaligned' condition mimicking earlier school year sleep-wake times (2000-0530). Participants completed morning and afternoon functional magnetic resonance imaging scans during each condition, including monetary reward (morning only) and response inhibition (morning and afternoon) tasks. Total sleep time and circadian phase were assessed via actigraphy and salivary melatonin, respectively. RESULTS: Bilateral ventral striatal (VS) activation during reward outcome was lower during the Misaligned condition after accounting for the prior night's total sleep time. Bilateral VS activation during reward anticipation was lower during the Misaligned condition, including after accounting for covariates, but did not survive correction for multiple comparisons. Right inferior frontal gyrus activation during response inhibition was lower during the Misaligned condition, before and after accounting for total sleep time and vigilant attention, but only during the morning scan. CONCLUSIONS: Our findings provide novel experimental evidence that circadian misalignment analogous to that resulting from school schedules may have measurable impacts on healthy adolescents' reward processing and inhibition of prepotent responses.
BACKGROUND: Sleep and circadian timing shifts later during adolescence, conflicting with early school start times, and resulting in circadian misalignment. Although circadian misalignment has been linked to depression, substance use, and altered reward function, a paucity of experimental studies precludes the determination of causality. Here we tested, for the first time, whether experimentally-imposed circadian misalignment alters the neural response to monetary reward and/or response inhibition. METHODS: Healthy adolescents (n = 25, ages 13-17) completed two in-lab sleep schedules in counterbalanced order: An 'aligned' condition based on typical summer sleep-wake times (0000-0930) and a 'misaligned' condition mimicking earlier school year sleep-wake times (2000-0530). Participants completed morning and afternoon functional magnetic resonance imaging scans during each condition, including monetary reward (morning only) and response inhibition (morning and afternoon) tasks. Total sleep time and circadian phase were assessed via actigraphy and salivary melatonin, respectively. RESULTS: Bilateral ventral striatal (VS) activation during reward outcome was lower during the Misaligned condition after accounting for the prior night's total sleep time. Bilateral VS activation during reward anticipation was lower during the Misaligned condition, including after accounting for covariates, but did not survive correction for multiple comparisons. Right inferior frontal gyrus activation during response inhibition was lower during the Misaligned condition, before and after accounting for total sleep time and vigilant attention, but only during the morning scan. CONCLUSIONS: Our findings provide novel experimental evidence that circadian misalignment analogous to that resulting from school schedules may have measurable impacts on healthy adolescents' reward processing and inhibition of prepotent responses.
Authors: Michael M Plichta; Adam J Schwarz; Oliver Grimm; Katrin Morgen; Daniela Mier; Leila Haddad; Antje B M Gerdes; Carina Sauer; Heike Tost; Christine Esslinger; Peter Colman; Frederick Wilson; Peter Kirsch; Andreas Meyer-Lindenberg Journal: Neuroimage Date: 2012-02-08 Impact factor: 6.556
Authors: Colleen E Carney; Daniel J Buysse; Sonia Ancoli-Israel; Jack D Edinger; Andrew D Krystal; Kenneth L Lichstein; Charles M Morin Journal: Sleep Date: 2012-02-01 Impact factor: 5.849
Authors: Brant P Hasler; Jessica L Graves; Meredith L Wallace; Stephanie Claudatos; Peter L Franzen; Kate B Nooner; Sandra A Brown; Susan F Tapert; Fiona C Baker; Duncan B Clark Journal: Alcohol Clin Exp Res Date: 2022-05-17 Impact factor: 3.928
Authors: Brant P Hasler; Meredith L Wallace; Jessica L Graves; Brooke S G Molina; Sarah L Pedersen Journal: Chronobiol Int Date: 2022-02-10 Impact factor: 3.749
Authors: Brant P Hasler; Jessica L Graves; Adriane M Soehner; Meredith L Wallace; Duncan B Clark Journal: Front Neurosci Date: 2022-02-16 Impact factor: 4.677
Authors: Helen J Burgess; Muneer Rizvydeen; Fumitaka Kikyo; Nema Kebbeh; Michael Tan; Kathryn A Roecklein; Brant P Hasler; Andrea C King; Dingcai Cao Journal: Alcohol Clin Exp Res Date: 2022-07-31 Impact factor: 3.928